EP2919003A1 - Sample delivery assembly for a hplc system using disposable pipetting tips for the transfer of samples into the hplc system and use in pipetting robots - Google Patents

Abstract

The invention relates to a sample application arrangement for an HPLC system, comprising disposable pipetting tips comprising a sample transfer disposable pipetting tip (1) for injecting a sample into the HPLC system and a disposable washing solution pipetting tip (3) for a Washing process, and with an injection adapter (7) as part of an injection unit (9) having an injector (11) and a valve drive (13). Sample transfer disposable pipetting tip (1) and disposable washing solution pipetting tip (3) are different from each other and adapted for engagement with the injection adapter (7). The injection adapter (7) is provided with a cavity (15) which tapers from its sample receiving side opening in the direction of the injection unit (9) in such a way that it defines defined, mutually different contact areas as sealing areas for the sample transfer disposable pipette tip (FIG. 1) on the one hand and the wash solution disposable pipetting tip (3) on the other. The sample transfer disposable pipette tip (1) engages deeper into the injection adapter (7) towards the injection unit than the wash solution disposable pipetting tip (3). The invention also relates to a method for sample application in an HPLC system.

Description

The invention relates to a sample application arrangement for a HPLC system with disposable pipetting tips, in particular for use in pipetting robots, and a corresponding method for sample application.

Conventional samplers used in high performance liquid chromatography (HPLC) sample are sampled from a sample vial, dosed into a sample loop, and then injected. After each sample injection, the areas in contact with each sample must be washed to minimize cross-contamination, otherwise the analytical result may be corrupted or rendered useless.

In the context of such a sample application in HPLC systems, therefore, great efforts have long been made to make the injection and the transfer of samples into the HPLC system so that accurate and reproducible results are obtained as possible with little effort. One goal is to achieve the lowest possible sample carryover. These conventional HPLC samplers are usually built consuming, with always the same area is contaminated with the sample and then has to be washed consuming to minimize the sample carryover as low as possible. Achieving this goal is made even more difficult by the fact that the resolution of the HPLC detectors is becoming more sensitive. Newer HPLC detectors already work with such a high resolution that even sample carry-over from 1 to 10,000 is still detectable and quantifiable.

In addition, it should be noted that there is an increasing need to supply the samples as soon as possible after the workup to the HPLC system and measure. In this way, it is intended to prevent changes in the sample (s) which may arise in the time between the sample preparation and the measurement.

The invention is therefore based on the object to provide an HPLC sampler system using disposable pipetting tips, with the samples as soon as possible after their processing in an HPLC system can be transferred, wherein the washing of the areas in contact with the respective areas in a way is to be carried out that the lowest possible sample carryover is achieved.

This object is achieved by a sample application arrangement for an HPLC system, in which disposable pipetting tips of various types are used, namely on the one hand sample transfer disposable pipetting tips for injecting or transferring at least one sample or a sample solution into the HPLC system; and secondly, washing solution disposable pipetting tips for a washing or rinsing operation. Washing is thus done with a different disposable pipette tip than the sample application. Likewise, the sample application arrangement according to the invention comprises an injection adapter as part of an injection unit, which has an injector valve and a valve drive. The respective disparate sample transfer disposable pipetting tips and disposable washing solution pipetting tips are configured to engage the injection adapter. This injection adapter is accordingly provided with an interior, which is formed as a cavity. The injection adapter tapers extending from its sample receiving side opening toward the injection unit to form defined, mutually distinct abutment areas as sealing areas for the sample transfer disposable pipetting tip, on the one hand, and the wash solution disposable pipetting tip, on the other hand. As a result, the sample transfer disposable pipette tip, as viewed in the direction of the injection unit, engages deeper into the injection adapter than the wash solution disposable pipetting tip.

As a result, the area contaminated by the contact with a sample or sample solution is smaller than the area which may be referred to as the wash solution contamination area or generally as the area coming into contact with the washing solution. As a result, the area contaminated by the sample or sample solution can be washed very effectively and the washing of the area contaminated by the sample or sample solution is designed so that a sample carryover is reduced in a simple manner to at least a no longer relevant order of magnitude.

According to a development of the sample application arrangement according to the invention, the sample transfer disposable pipetting tip is designed to be narrower and slimmer in its shape relative to the wash solution disposable pipetting tip. In this way, it is particularly easily achieved that the sample transfer disposable pipette tip engages deeper into the injection adapter in the direction of the injection unit than the wash solution disposable pipette tip. A sample carryover is reduced to at least a non-relevant order of magnitude.

In a preferred embodiment, the cavity of the injection adapter tapers intermittently to form defined sealing edges.

It is particularly preferred that the sealing areas of the cavity of the injection adapter formed as abutment areas for the sample transfer disposable pipetting tip on the one hand and the wash solution disposable pipette tip on the other hand are formed as sealing edges and together with the sample transfer disposable pipetting tip or the wash solution disposable pipetting tip each define a sealing surface, said sealing surface is formed with respect to the respective disposable pipetting tips frontally or on the outer sides thereof. This depends in each case on the shape of the disposable pipetting tip and takes into account, inter alia, the fact that the disposable washing solution pipette tip may be less slender and therefore also more rounded in its front tip region than the sample transfer disposable pipette tip.

According to a development of the sample application arrangement according to the invention, the injection adapter is firmly connected to the injector valve and this unit is located on a spring assembly. This determines the contact pressure between the respective disposable pipette tip and the injection adapter.

In this way, the tightness between the injector with the injection adapter on the one hand and the respective disposable pipette tip is ensured by a variable pressure force, which also has to be taken into account that the pressure force is additionally determined by the motor as the drive for the respective disposable pipetting tips.

The invention also relates to a method for sample introduction in an HPLC system with disposable pipetting tips, in which at least one sample or sample solution is injected via a sample transfer disposable pipette tip into an injection adapter as part of an injection unit of the HPLC system, followed by a washing process with a wash solution disposable pipetting tip different from the sample transfer disposable pipetting tip in the mold, sealing between the sample transfer disposable pipetting tip and the wash solution disposable pipetting tip and the injection adapter via different sealing regions matched to the respective disposable pipetting tips in the injection adapter and in cooperation with a defined contact pressure, and the washing area in the injection adapter about the shape of the washing solution disposable pipetting tip and its abutment with the corresponding sealing area in the injection adapter is chosen to be larger than the sample transfer area.

The method according to the invention can be used particularly advantageously if the sample application takes place automatically by means of a pipetting robot.

Furthermore, it is advantageous that the pressure is selected as a variable pressure force. This can be controlled via the spring cap of the spring package.

Most preferably, the sample transfer disposable pipetting tip, as viewed in the direction of the injection unit, is inserted deeper into the injection adapter than the disposable wash solution pipette tip.

The advantages of this procedure have already been explained above with regard to the sample application arrangement according to the invention. The sample transfer contaminates a smaller area in the injection adapter than washing through the wash solution during the wash solution transfer.

In the following the invention will be explained in more detail with reference to an embodiment in conjunction with the accompanying drawings.

Fig. 1a:

eine schematisch dargestellte Einweg-Pipettierspitze und einen dazu korrespondierenden Injektionsadapter für die Aufnahme und den Transfer einer Probe in ein HPLC-System,

Fig. 1b:

eine schematisch dargestellte Einweg-Pipettierspitze für das Waschen oder Spülen des Injektionsadapter und den dazu korrespondierenden Injektionsadapter nach Fig. 1a,

Fig.2a:

eine schematisch dargestellte HPLC-Injektionseinheit mit dem Injektionsadapter nach Fig. 1a auf einem Federlager und mit einer Ventilstellung für das Laden einer Probe, und

Fig.2b:

eine schematisch dargestellte HPLC-Injektionseinheit nach Fig. 2a mit einer Ventilstellung für das Waschen oder Spülen des Injektionsadapters.

Show it:

Fig. 1a:

a schematically illustrated disposable pipetting tip and a corresponding injection adapter for receiving and transferring a sample into an HPLC system,

Fig. 1b:

a schematically illustrated disposable pipetting tip for washing or rinsing the injection adapter and the corresponding injection adapter according to Fig. 1a .

2a:

a schematically illustrated HPLC injection unit with the injection adapter according to Fig. 1a on a spring bearing and with a valve position for loading a sample, and

2b:

a schematically illustrated HPLC injection unit according to Fig. 2a with a valve position for washing or rinsing the injection adapter.

In the context of this exemplary embodiment, a sample application arrangement according to the invention for an HPLC system is described in which the injection of samples into the HPLC system takes place directly and automatically with the use of disposable pipetting tips. The need for pipetting automaton or robot is otherwise formed in the manner known in the art. The same applies to the HPLC system as such.

Within the scope of the sample application arrangement according to the invention, a disposable pipetting tip for the sample transfer into the HPLC system and on the other hand a further disposable pipetting tip are provided for the washing or rinsing process which is basically customary for reducing or avoiding contamination by sample carryover. The disposable pipetting tip for sample transfer will be referred to as a sample transfer disposable pipetting tip 1 which is described in US Pat Fig. 1a is shown in more detail. The disposable pipetting tip for the washing or rinsing process is referred to as a disposable washing solution pipetting tip 3 accordingly. This is in Fig. 1b shown.

With the sample transfer disposable pipetting tip 1, a sample 5 to be analyzed is transferred to the HPLC system. For this purpose, it is introduced into an injection adapter 7, which also out Fig. 1a can be seen. This injection adapter 7 is part of an HPLC injection unit 9 and fixedly connected to an injector 11 and a valve drive 13 of the HPLC injection unit 9, as the Fig. 2a and 2b demonstrate.

The injection adapter 7 has a cavity formed as a cavity 15 extending from its opening for receiving the respective disposable pipetting tip, and thus also for receiving the sample, to the opposite, connected to the injector valve 11 of the HPLC injection unit 9 End rejuvenated. This taper occurs in the embodiment of this example described for the purpose of illustrating the invention intermittently. However, for the person skilled in the art, after explaining the purpose of the tapered interior, it will not necessarily be necessary for this interior space to be tapered. It can also be provided a continuous taper of this interior.

Sample transfer disposable pipetting tip 1 and washing solution disposable pipetting tip 3 are each different from one another and adapted to be engaged in the injection adapter 7. Although the sample transfer disposable pipette tip 1 is comparable in its shape relative to the wash solution disposable pipetting tip 3, it is narrower and more slender. As a result, it protrudes deeper into the tapering interior of the injection adapter 7 than the washing solution disposable pipetting tip 3.

If the sample transfer disposable pipette tip 1 is introduced into the interior of the injection adapter 7, as a rule, to transfer the respective sample (s) into the HPLC system until it bears against the inner wall of the cavity 15 of the injection adapter 7 , This contact surface of the sample transfer disposable pipette tip 1 forms a seal. In the intermittently tapering interior of the injection adapter 7 according to this embodiment, a sealing edge is accordingly defined, referred to as sample sealing edge and in Fig. 1a is provided with the reference numeral 17.

Then, the washing solution disposable pipetting tip 3 is then introduced into the interior of the injection adapter 7 for the washing process, until it in turn abuts the inner wall of the cavity 15 of the injection adapter 7, this contact surface of the washing solution disposable pipetting tip 3 also forms a seal. In the intermittently tapering interior of the injection adapter 7 according to this embodiment, thereby a sealing edge is defined, referred to as Waschdichtkante and in Fig. 1b is provided with the reference numeral 19.

By the relative to the washing solution disposable pipetting tip 3 slim (re) form of the sample transfer disposable pipette tip 1, the sample sealing edge 17, as viewed in the direction of the HPLC injection unit 9, deeper in the injection adapter 7 than the Waschdichtkante 19, which of the relatively thicker wash solution disposable pipette tip 3 is sealed. As a result, the sample contamination area 21 is smaller than the wash solution contamination area 23.

The injection adapter 7 thus has different sealing regions for the different disposable pipetting tips 1, 3.

The respective disposable pipetting tip 1, 3 and the sealing edges 17, 19, which are formed on the tapered interior of the injection adapter 7, each define a sealing surface, said sealing surface between the disposable pipetting tip 1, 3 and the interior of the injection adapter 7 in With regard to the respective disposable pipetting tips 1, 3 may be formed both the front side and on the outer sides.

To ensure the pressure and thus the tightness for the process of sample application with the sample transfer disposable pipette tip 1 as for the washing process with the washing solution disposable pipette tip 3, the injector 11 and thus also connected to this injector valve 11 is Injection adapter 7 on a spring assembly 25. This illustrate the Fig. 2a, 2b , The pressure of the sample transfer disposable pipette tip 1 during the sample application and the washing solution disposable pipetting tip 3 during the washing process thus takes place via this spring assembly 25. In other words, on the one hand the spring assembly 25 determines the pressing force between the sample transfer disposable pipetting tip 1 and Wash solution disposable pipetting tip 3 and the injection adapter 7 and on the other hand present in the automatic sample application in the usual way motor as a drive for the disposable pipetting tips.

The tightness between the injector 11 with the injection adapter 7 and the respective disposable pipetting tips 1, 3 is given by a variable pressure force.

The Fig. 2a, 2b show the injection unit 9, with the already mentioned injector valve 11, the valve drive 13 and the injection adapter 7, which is a fixed unit on the spring assembly 25.

In the charging valve position 27, how Fig. 2a As illustrated, the sample is pushed into the injection loop 29 with the pipetting automat using the sample transfer disposable pipetting tip 1 as described above.

In the injection valve position 31, how Fig. 2b 1 shows, the injection adapter 7 can be flushed via the injector valve 11 with the automatic pipetting apparatus using the previously described washing solution disposable pipette tip 3. The rinse solution is passed through the overflow 33 in the waste 35.

Thus, according to the invention, it is an HPLC injection system in which sample solution and washing solution are transferred by means of disposable pipetting tips 1, 3 via the injection adapter 7 into the HPLC system, the seal between the disposable pipetting tips 1, 3 and the injection adapter 7 via pipette tip-type-specific different sealing edges and with defined pressure, the sample (solution) transfer and the wash solution transfer with different disposable pipette tips takes place and the wash area in the injection adapter 7 is greater than that through the sample 5 or sample solution contaminated area.

Overall, the specific pressure surfaces and sealing edges 17, 19 in the injection adapter 7, which are defined for the disposable pipetting tips 1.3 used, the defined pressure force for the seal between the respective disposable pipetting tips 1.3 and the injection adapter 7 and the use of different disposable pipetting tips. Pipette tips 1.3 for the sample and for the washing solution or the Washing solvent reduces the carryover of the samples to be examined to a minimum and at the same time greatly simplifies the washing of the injection adapter 7 and the injector valve 11.

Claims (10)

Sample loading assembly for an HPLC system, comprising disposable pipetting tips comprising a sample transfer disposable pipetting tip (1) for injecting or transferring at least one sample into the HPLC system and a disposable washing solution pipetting tip (3) a washing or rinsing operation, and with an injection adapter (7) as part of an injection unit (9) having an injector valve (11) and a valve drive (13), wherein sample transfer disposable pipetting tip (1) and wash solution disposable Pipetting tip (3) are different from each other and adapted for engagement in the injection adapter (7) and the injection adapter (7) with a cavity (15) extending from its sample receiving side opening in the direction of the injection unit (9) the way that it tapers defined, different investment areas as sealing areas for the sample transfer disposable pipette tip (1) on the one hand and the washing solution disposable pipetting tip e) on the other hand, and wherein the sample transfer disposable pipetting tip (1) engages deeper into the injection adapter (7) toward the injection unit than the wash solution disposable pipetting tip (3). Sample application arrangement according to claim 1, characterized in that the sample transfer disposable pipette tip (1) is narrower and slimmer in its shape relative to the wash solution disposable pipetting tip (3). Sample application arrangement according to Claim 1 or 2, characterized by a cavity (15) of the injection adapter (7) which tapers in a batchwise fashion to form defined sealing edges. Sample application arrangement according to one of claims 1 to 3, characterized in that the sealing areas of the cavity (15) of the injection adapter (15) of the injection adapter (15) formed as abutment areas for the sample transfer disposable pipette tip (1) on the one hand and the wash solution disposable pipetting tip (3) on the other hand 7) are formed as sealing edges and together with the sample transfer disposable pipetting tip (1) or the washing solution disposable pipetting tip (3) each define a sealing surface, said sealing surface with respect to the respective disposable pipetting tips (1,3) frontally or on its outer sides is formed. Sample application arrangement according to one of Claims 1 to 4, characterized in that the injection adapter (7) is firmly connected to the injector valve (11), that this unit is located on a spring assembly (25), and thereby the pressure force between the respective ones Disposable pipetting tip (1, 3) and the injection adapter (7) is determined. Sample application arrangement according to claim 5, characterized in that the pressure force is additionally determined by the motor as a drive for the respective disposable pipetting tips (1, 3). Method for sample introduction in an HPLC system with disposable pipetting tips, in which at least one sample is injected via a sample transfer disposable pipetting tip (1) into an injection adapter (7) as part of an injection unit (9) of the HPLC system, then Washing operation is performed with a washing solution disposable pipetting tip (3) different from the sample transfer disposable pipetting tip (1) in the mold, sealing between the sample transfer disposable pipetting tip (1) and the wash solution disposable pipetting tip (3) and the injection adapter (7) via different to the respective disposable pipetting tips (1, 3) matched sealing areas in the injection adapter (7) and in cooperation with a defined pressure, and the washing area in the injection adapter (7) on the shape of the Wash solution disposable pipetting tip (3) and their attachment to the corresponding sealing area in the injection adapter (7) is chosen to be greater than the sample transfer area. Method according to Claim 7, characterized in that the sample application is carried out automatically by means of a pipetting robot. A method according to claim 7 or 8, characterized in that the pressure is selected as a variable pressure force. Method according to one of claims 7 to 9, characterized in that the sample transfer disposable pipetting tip (1) in the direction of the injection unit is inserted deeper into the injection adapter (7) as the washing solution disposable pipetting tip (3).

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